Development of Insulating Masonry Bricks from Wood Fiber and Varying Milled Glass Proportion

Journal of Civil Engineering and Construction Pub Date : 2023-02-15 DOI:10.32732/jcec.2023.12.1.40

A. Akinwande, O. Balogun, H. Danso, V. Romanovski, Akeem Oladele Ademati, Abiola Oluwasogo Oyediran

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引用次数: 3

Abstract

Thermal efficient sandcrete bricks are masonry units with good thermal insulating properties. Wood fiber (WF) possesses low thermal conductivity, hence, its incorporation in mortar mix results in thermal efficient masonry units. Milled glass (MG) could be added for strength enhancement. This study incorporated WF into mortar mix at a constant dosage of 5 wt.%, with varying MG proportions of 0, 5, 10, 15 and 20 wt.% and cured for 7, 14 and 28 days. The results obtained showed minimization of porosity and water absorption at increasing MG content. Density and compressive strength were enhanced as MG content increased. Flexural and splitting tensile strengths appreciated and peaked at 15 wt.% MG. Thermal performance measured demonstrated progressive appreciation in thermal conductivity while specific heat capacity followed a downtrend as MG dosage increased. The study revealed that the collage of 5 wt. % wood fiber and 15 wt. % MG yielded optimum result. The study, therefore, concludes that the addition of milled glass and wood fiber positively and significantly affected the properties of sandcrete bricks. 15 wt.% of milled glass and 5% wood fiber inclusion in sandcrete bricks are recommended for use by construction practitioners.

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木纤维和不同磨砂比例保温砌块的研制

热效率砂混凝土砖是具有良好保温性能的砌体材料。木纤维(WF)具有低导热性，因此，将其掺入砂浆混合物中可以产生热效率高的砌体单元。可加入磨砂玻璃(MG)增强强度。本研究将WF加入砂浆混合物中，固定剂量为5 wt.%， MG比例为0、5、10、15和20 wt.%，分别固化7、14和28天。结果表明，随着MG含量的增加，孔隙率和吸水率最小。随着MG含量的增加，材料的密度和抗压强度均有所提高。弯曲和劈裂拉伸强度增加，并在15 wt.% MG达到峰值。热性能测量表明，随着MG剂量的增加，导热系数逐渐增加，而比热容则呈下降趋势。研究表明，5%的木纤维和15%的MG的拼贴效果最佳。因此，研究得出结论，磨砂玻璃和木纤维的加入对砂混凝土砖的性能有积极而显著的影响。建议建筑从业人员在砂混凝土砖中加入15%的磨砂玻璃和5%的木纤维夹杂物。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Journal of Civil Engineering and Construction

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